EU Directives 2011/65/EU and 2015/863 restrict the use of the 10 substances below in the manufacture of specified types of electrical equipment.

Whilst this restriction does not legally apply to components, it is recognised that component “compliance” is relevant to many customers.

RS definition of RoHS Compliance:

The product does not contain any of the restricted substances in concentrations and applications banned by the Directive,

and for components, the product is capable of being worked on at the higher temperatures required by lead–free soldering

The restricted substances and maximum allowed concentrations in the homogenous material are, by weight:

Substance

Concentration

Lead

0.1%

Mercury

0.1%

PBB (Polybrominated Biphenyls)

0.1%

PBDE ( Polybrominated Diphenyl Ethers)

0.1%

Hexavalent Chromium

0.1%

Cadmium

0.01%

DEHP (Bis (2-Ethylhexl) phthalate)

0.1%

BBP (Benzyl butyl phthalate)

0.1%

DBP (Dibutyl phthalate)

0.1%

DIBP (Diisobutyl phthalate)

0.1%

The supplier of the item listed below has informed RS Components that the product is “RoHS Compliant”.RS Components has taken all reasonable steps to confirm this statement. Information relates only to products sold on or after the date of this certificate.

RS Components

Statement of conformity

The product detailed below complies with the specifications published by RS Components. Where applicable it provides assurance that electrostatic discharge sensitive devices have been handled and packed under conditions that meet the administrative and technical requirements of the ANSI/ESD S20.20:2014 and BS EN 61340-5-1:2007 Electrostatic Control Standards.

The Teledyne LeCroy HVFO103 (RS 136-8330) is a high voltage (HV) fibre-optically isolated 60MHz oscilloscope probe that is designed for the measurement of small signals floating on a high voltage bus in power electronics designs.
Optical isolation between the probe tip and the oscilloscope input reduces adverse loading of a device under test. It also reduces noise, distortion, ringing, overshoots, and transients on the measured signal. It far surpasses the measurement capabilities and signal fidelity of both conventional HV differential probes and acquisition systems that rely on galvanic channel-to-channel and channel-to-ground high voltage isolation. Furthermore, it mitigates reliance on dangerous test setups that require floating the oscilloscope and probe, or investments in specialized isolated oscilloscope or data acquisition systems that result in other performance compromises.
The HVFO103 architecture is simple, with a single laser and fibre optic cable providing optical isolation and modulated signal + data communication. Selectable tips are available for various operating voltage ranges. The HVFO103 is small enough to fit in tight spaces, provides the performance required for real-world needs, and is affordable enough to accommodate tight equipment budgets.